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package com.szpg.plc.message.response.read;
import java.util.ArrayList;
import java.util.Calendar;
import java.util.List;
import org.apache.commons.lang3.StringUtils;
import org.apache.log4j.Logger;
import com.szpg.db.dao.PgAlarmDao;
import com.szpg.db.dao.PgAlarmRuleDao;
import com.szpg.db.dao.PgDeviceDao;
import com.szpg.db.dao.PgO2Dao;
import com.szpg.db.dao.impl.PgAlarmDaoImpl;
import com.szpg.db.dao.impl.PgAlarmRuleDaoImpl;
import com.szpg.db.dao.impl.PgDeviceDaoImpl;
import com.szpg.db.dao.impl.PgO2DaoImpl;
import com.szpg.db.data.PgAlarm;
import com.szpg.db.data.PgAlarmRule;
import com.szpg.db.data.PgDevice;
import com.szpg.plc.message.response.ReadMemoryCommandResponse;
import com.szpg.util.Configure;
import com.szpg.util.DataPushInterface;
import com.szpg.util.HttpRequest;
import com.szpg.util.NumberFormat;
import com.szpg.util.TimeFormat;
public class ReadO2ValueCommandResponse extends ReadMemoryCommandResponse {
/**
*
*/
private static final long serialVersionUID = -2816512676498637196L;
private final Logger logger = Logger.getLogger(this.getClass().getName());
private List<Float> o2nd; // 氧气浓度值
private List<Float> o2ldbjz; // 氧气联动报警值
private String[] zcList; // 氧气监测设备资产列表,从配置文件中获取
public ReadO2ValueCommandResponse() {
o2nd = new ArrayList<Float>();
o2ldbjz = new ArrayList<Float>();
}
public List<Float> getO2nd() {
return o2nd;
}
public void setO2nd(List<Float> o2nd) {
this.o2nd = o2nd;
}
public List<Float> getO2ldbjz() {
return o2ldbjz;
}
public void setO2ldbjz(List<Float> o2ldbjz) {
this.o2ldbjz = o2ldbjz;
}
public String[] getZcList() {
return zcList;
}
public void setZcList(String[] zcList) {
this.zcList = zcList;
}
@Override
public void afterAction() {
// 1将氧气浓度数据存入数据库
PgO2Dao o2Dao = new PgO2DaoImpl();
PgDeviceDao deviceDao = new PgDeviceDaoImpl();
PgAlarmRuleDao ruleDao = new PgAlarmRuleDaoImpl();
PgAlarmDao alarmDao = new PgAlarmDaoImpl();
if (null != zcList && zcList.length > 0) {
// 遍历氧气设备列表,将氧气浓度监测值存入数据库
for (int i = 0; i < zcList.length; i++) {
String zcbh = zcList[i];
float value = o2nd.get(i);
int deviceId = deviceDao.findDeviceIdByCode(zcbh);
if (deviceId > 0) {
o2Dao.addPblzRecord(o2nd.get(i), TimeFormat.formatTimestamp(this.getTime().getTime()), deviceId);
// (一)如果有报警则立即推送
// 判断是否超过报警阈值
PgAlarmRule rule = ruleDao.findRuleByDevice(deviceId);
if (null != rule) {
double low = 0.0;
try {
low = NumberFormat.parseDouble(rule.getLowvalue(), "0.00");
} catch (Exception ex) {
logger.error(ex);
ex.printStackTrace();
}
// 氧气浓度低于低限阈值
if (low > 0.0001 && value < low) {
PgAlarm alarm = new PgAlarm();
alarm.setActive(1);
alarm.setAlarm_date(this.getTime().getTime());
alarm.setAlarm_value(NumberFormat.format(value, "0.00"));
alarm.setAlarmdevid(deviceId);
alarm.setAlarmtypeid(PgAlarm.ALARM_TYPE_PGRUN);
alarm.setDescription("氧气浓度低于低限阈值");
alarm.setUserid(null);
alarmDao.insertAlarmRecord(alarm);
// 将报警日志推送至市级平台
String date = TimeFormat.formatDate(getTime().getTime());
int count = alarmDao.findAlarmCountByDate(date);
String bjbh = "THXC." + date + "." + NumberFormat.format(count+1, "0000");
String bjms = alarm.getDescription() + ",氧气浓度值为" + value;
String bjsj = date.replace("-", "");
String jwbjResp = DataPushInterface.addO2AlarmData(bjbh, zcbh, bjms, bjsj);
logger.info("同步氧气报警记录日志结果:" + jwbjResp);
// 将报警值推送至市级平台
String jwResp = DataPushInterface.addO2Data(zcbh, NumberFormat.format(value, "0.00"), TimeFormat.format(this.getTime().getTime(), "yyyyMMddHHmmss"));
logger.info("同步氧气浓度值结果:" + jwResp);
// 自动打开当前舱段的排风机,手动关闭风机
// 首先找到当前舱段的排风机资产编号
String acucode = zcbh.substring(0, zcbh.indexOf(".", 6));
String cabin = zcbh.substring(zcbh.lastIndexOf(".") + 1, zcbh.lastIndexOf(".") + 2);
List<PgDevice> fjs = deviceDao.findDeviceByPositionAndType(acucode, "F", cabin);
if (null != fjs && fjs.isEmpty() == false) {
String baseURL = Configure.getProperty("sys", "PGDSC_API_URL");
for (PgDevice fj : fjs) {
String fjzcbh = fj.getAssetcode();
// 调用远程接口启动风机
HttpRequest.sendGet(baseURL + "remote/turnOnFj.action", "zcbh=" + fjzcbh);
}
}
}
}
// (二)如果监测值有变化则推送
// 判断氧气浓度值是否有变化
double lastValue = o2Dao.findLastValueByDevice(deviceId);
if (Math.abs(value - lastValue) > 0.01) {
// 将监测值推送至市级平台
String o2Resp = DataPushInterface.addO2Data(zcbh, NumberFormat.format(value, "0.00"), TimeFormat.format(this.getTime().getTime(), "yyyyMMddHHmmss"));
logger.info("同步氧气浓度值结果:" + o2Resp);
}
// (三)如果监测值有变化则推送
// 每天小时各推送一个数据
int minute = Calendar.getInstance().get(Calendar.MINUTE);
if (minute < 10) {
// 将监测值推送至市级平台
String o2Resp = DataPushInterface.addO2Data(zcbh, NumberFormat.format(value, "0.00"), TimeFormat.format(this.getTime().getTime(), "yyyyMMddHHmmss"));
logger.info("同步氧气浓度值结果:" + o2Resp);
}
} else {
logger.warn("未找到资产[" + zcbh + "]");
}
}
}
}
@Override
public void parseData() {
// 获取目标ACU的代码
String acucode = this.getAcucode();
byte[] messageData = this.getResponseData();
logger.info("开始解析[读取氧气浓度值][" + acucode + "]指令响应");
// 判断数据的长度是否满足要求
if (messageData.length != Integer.parseInt(Configure.getProperty("acubl", acucode + ".YQ.WORDCOUNT")) * 2) {
logger.error("返回的数据长度与读取的不一致!");
this.setValid(false);
return;
}
// 获取目标ACU氧气监测值内存区域的起始字地址
int start = Integer.parseInt(Configure.getProperty("acubl", acucode + ".YQ.START"));
// 获取目标ACU氧气相关的资产列表,即氧气设备列表
String zcListStr = Configure.getProperty("acubl", acucode + ".YQ.ZC.LIST");
if (StringUtils.isEmpty(zcListStr) == true) {
this.setValid(false);
return;
}
zcList = zcListStr.split(";");
// 解析氧气浓度监测值以及氧气浓度报警阈值
for (int i = 0; i < zcList.length; i++) {
String zcbh = zcList[i];
// 1解析氧气浓度监测值
float value = getValueFromData(zcbh, start, messageData, zcbh + ".Value");
// 2解析氧气浓度报警阈值
float threshold = getValueFromData(zcbh, start, messageData, zcbh + ".Set");
getO2nd().add(value);
getO2ldbjz().add(threshold);
logger.info("[" + zcbh + "][氧气浓度值" + value + "][氧气浓度报警阈值" + threshold + "]");
}
logger.info("解析[读取氧气浓度值]响应指令结束");
}
}